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P Nanda Devi C Sasikala C V Ramana 《Journal of industrial microbiology & biotechnology》2000,24(3):219-221
Rhodobacter sphaeroides OU5 transformed anthranilate (2 mM) to an indole (0.7 mM) in a light-dependent process. Photobiotransformation was enhanced
by tricarboxylic acid cycle intermediates and the indole formed was identified as 2,3 dihydroxy indole. Journal of Industrial Microbiology & Biotechnology (2000) 24, 219–221.
Received 16 September 1999/ Accepted in revised form 20 December 1999 相似文献
104.
Bobbie-Jo Webb-Robertson Young-Mo Kim Erika M. Zink Katherine A. Hallaian Qibin Zhang Ramana Madupu Katrina M. Waters Thomas O. Metz 《Metabolomics : Official journal of the Metabolomic Society》2014,10(5):897-908
Urease pre-treatment of urine has been utilized since the early 1960s to remove high levels of urea from samples prior to further processing and analysis by gas chromatography–mass spectrometry (GC–MS). Aside from the obvious depletion or elimination of urea, the effect, if any, of urease pre-treatment on the urinary metabolome has not been studied in detail. Here, we report the results of three separate but related experiments that were designed to assess possible indirect effects of urease pre-treatment on the urinary metabolome as measured by GC–MS. In total, 235 GC–MS analyses were performed and over 106 identified and 200 unidentified metabolites were quantified across the three experiments. The results showed that data from urease pre-treated samples (1) had the same or lower coefficients of variance among reproducibly detected metabolites, (2) more accurately reflected quantitative differences and the expected ratios among different urine volumes, and (3) increased the number of metabolite identifications. Overall, we observed no negative consequences of urease pre-treatment. In contrast, urease pre-treatment enhanced the ability to distinguish between volume-based and biological sample types compared to no treatment. Taken together, these results show that urease pre-treatment of urine offers multiple beneficial effects that outweigh any artifacts that may be introduced to the data in urinary metabolomics analyses. 相似文献
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Adinarayana Marada Praveen Kumar Allu Anjaneyulu Murari BhoomiReddy PullaReddy Prasad Tammineni Venkata Ramana Thiriveedi Jayasree Danduprolu Naresh Babu V. Sepuri 《Molecular biology of the cell》2013,24(6):692-703
Despite the growing evidence of the role of oxidative stress in disease, its molecular mechanism of action remains poorly understood. The yeast Saccharomyces cerevisiae provides a valuable model system in which to elucidate the effects of oxidative stress on mitochondria in higher eukaryotes. Dimeric yeast Mge1, the cochaperone of heat shock protein 70 (Hsp70), is essential for exchanging ATP for ADP on Hsp70 and thus for recycling of Hsp70 for mitochondrial protein import and folding. Here we show an oxidative stress–dependent decrease in Mge1 dimer formation accompanied by a concomitant decrease in Mge1–Hsp70 complex formation in vitro. The Mge1-M155L substitution mutant stabilizes both Mge1 dimer and Mge1–Hsp70 complex formation. Most important, the Mge1-M155L mutant rescues the slow-growth phenomenon associated with the wild-type Mge1 strain in the presence of H2O2 in vivo, stimulation of the ATPase activity of Hsp70, and the protein import defect during oxidative stress in vitro. Furthermore, cross-linking studies reveal that Mge1–Hsp70 complex formation in mitochondria isolated from wild-type Mge1 cells is more susceptible to reactive oxygen species compared with mitochondria from Mge1-M155L cells. This novel oxidative sensor capability of yeast Mge1 might represent an evolutionarily conserved function, given that human recombinant dimeric Mge1 is also sensitive to H2O2. 相似文献
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Kumar Gaurav Lhingjakim Khongsai L. Uppada Jagadeeshwari Ahamad Shabbir Kumar Dhanesh Kashif Gulam Mohammad Sasikala Chintalapati Ramana Chintalapati Venkata 《Antonie van Leeuwenhoek》2021,114(9):1465-1477
Antonie van Leeuwenhoek - Strain JC669T was isolated from a floating island of Loktak lake, Manipur, India and shares the highest 16S rRNA gene sequence identity with Aquisphaera giovannonii OJF2T.... 相似文献
109.
Nirupama Puvvada Sridhar Gunde Ch. Venkata Ramana Devi Raghu Gogada 《Biochemistry and Biophysics Reports》2021
FAD Synthetase (FADS) [EC 2.7.7.2], the second enzyme in flavin cofactor biosynthetic pathway converts FMN to FAD, plays an important role in many redox reactions. Neurospora crassa FADS (NcFADS) was cloned and overexpressed in E. coli cells. Recombinant NcFADS was purified in high yields of ~8 mg per liter of bacterial culture using a single step glutathione sepharose affinity chromatography. SDS-PAGE and MALDI-MS revealed that NcFADS has a molecular mass of ~31 kDa. Enzyme kinetic analysis monitored by reverse phase HPLC demonstrate a specific activity and kcat of 1356 nmol/min/mg and 0.69sec?1 respectively. Steady state kinetic analysis of NcFADS exhibited a Km of NcFADS for FMN is 2.7 μM and for MgATP?2 is 88.7 μM. Isothermal titration calorimetry experiments showed that the recombinant protein binds to the substrates with apparent Kd of 20.8 μM for FMN and 16.6 μM for MgATP?2. Biophysical characterization using intrinsic fluorescence suggests that the enzyme is in folded conformation. Far-UV CD data suggest that the backbone of the enzyme is predominantly in a helical conformation. Differential scanning calorimetry data shows that the Tm is 53 °C ± 1. This is the first report on cloning, purification and characterization of FADS from N. crassa. The specific activity of NcFADS is the highest than any of the reported FADS from any other source. The results obtained in this study is expected to pave way for intensive research aimed to understand the molecular basis for the extraordinarily high turnover rate of NcFADS. 相似文献
110.
V. Koteswara Rao M. Venkata Ramana S. Girisham S. Madhusudhan Reddy 《Archives Of Phytopathology And Plant Protection》2013,46(16):1917-1927
Mycotoxins are natural, secondary metabolites produced by fungi on agricultural commodities in the field and during storage under a wide range of climatic conditions. The ochratoxin A (OTA) is a nephrotoxic mycotoxin produced by several species of Aspergillus and Penicillium. In this study, the influence of carbon and nitrogen sources on ochratoxigenic Penicillium species was assessed. The ochratoxigenic Penicillium species were isolated from poultry feed samples of Andhra Pradesh, India. The isolated ochratoxigenic Penicillium species were identified, screened and characterised as OTA producers by high performance thin layer chromatography (HPTLC) and confirmed by high performance liquid chromatography (HPLC). This experiment was carried out using Czapak yeast Autolysate (CYA) medium with different carbon (C) and nitrogen (N) sources at pH 6.5 and incubated at 25 ± 2°C under dark condition. Maximum OTA production was recorded in the presence of D-glucose followed by D-galactose and D-lactose as carbon sources. Similarly, the maximum amount of OTA production was observed in thiourea followed by potassium nitrate as nitrogen source. However, OTA production, final pH of the medium, and mycelial yield and OTA production of both the species of Penicillium varied with C and N present in the medium. The kinetics of the both species of Penicillium was observed for 30 days at an interval of three days. The maximum amount of OTA was detected by 12 and 15 days incubation periods for Penicillium nordicum and Penicillium verrucosum, respectively. 相似文献